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Flexible Robot With Variable Stiffness in Transoral Surgery

Changsheng Li, Xiaoyi Gu, Xiao Xiao, Chwee Ming Lim, Hongliang Ren

发表年份
2019
引用次数
110

摘要

To possess sufficient compliance while keeping an acceptable stiffness level for manipulation with precision, transoral robotic surgery (TORS) demands a flexible robotic system with variable stiffness (VS) as presented in this paper. In our study, a flexible three-prismatic-universal parallel mechanism employs superelastic nickel-titanium rods to achieve compliant movements beyond the conventional rigid-body parallel mechanisms. With a compact structure and flexible-shaft transmission, the adjustable tube-based VS mechanism allows the stiffness of the manipulator to be continuously tuned in real time according to the surgical requirements. A stiffness model is derived to evaluate the stiffness of the manipulator quantitatively. A parallel mechanism with three prismatic-revolute-spherical chains is adopted as the master device, to improve the maneuverability and decrease the learning curve for less experienced surgeons. The TORS manipulators are characterized and verified in the laboratory and cadaveric trials, showing the VS and the execution of the master-slave teleoperated configuration. Furthermore, the cadaveric trials attested the effectiveness of the VS mechanism and the preclinical feasibility of the robotic system.

关键词

StiffnessMechanism (biology)TeleoperationCadaveric spasmWorkspaceParallel manipulatorRevolute jointComputer scienceManipulator (device)Simulation

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